English

LRSVRG-IMC: An SVRG-Based Algorithm for LowRank Inductive Matrix Completion

Machine Learning 2022-01-24 v1

Abstract

Low-rank inductive matrix completion (IMC) is currently widely used in IoT data completion, recommendation systems, and so on, as the side information in IMC has demonstrated great potential in reducing sample point remains a major obstacle for the convergence of the nonconvex solutions to IMC. What's more, carefully choosing the initial solution alone does not usually help remove the saddle points. To address this problem, we propose a stocastic variance reduction gradient-based algorithm called LRSVRG-IMC. LRSVRG-IMC can escape from the saddle points under various low-rank and sparse conditions with a properly chosen initial input. We also prove that LRSVVRG-IMC achieves both a linear convergence rate and a near-optimal sample complexity. The superiority and applicability of LRSVRG-IMC are verified via experiments on synthetic datasets.

Keywords

Cite

@article{arxiv.2201.08516,
  title  = {LRSVRG-IMC: An SVRG-Based Algorithm for LowRank Inductive Matrix Completion},
  author = {Shangrong Yu and Yuxin Chen and Hejun Wu},
  journal= {arXiv preprint arXiv:2201.08516},
  year   = {2022}
}

Comments

15 pages

R2 v1 2026-06-24T08:57:21.973Z